Please use this identifier to cite or link to this item: http://ir.futminna.edu.ng:8080/jspui/handle/123456789/7228
Title: Modelling Groundwater Recharge Estimation Using Modified Soil Moisture Balance Approach In Otukpo Basin, Nigeria.
Authors: Adaudu, Ignatius Ibeto
Adesiji, Adeolu Richard
Gbadebo, Anthonia Olukemi
Asogwa, Evarestus O
Mangey, Jarumi Akila
Keywords: Soil and crop properties
groundwater recharge
soil moisture balance model
Otukpo basin
Issue Date: 2020
Publisher: International Civil Engineering Conference (ICEC 2020).
Citation: Adaudu, I. I., Adesiji, A. R., Gbadebo, A. O., Asogwa, E. O., Mange y, J. A. (2020). Modelling Groundwater Recharge Estimation Using Modified Soil Moisture Balance Approach In Otukpo Basin, Nigeria. 2nd International Civil Engineering Conference (ICEC 2020).
Abstract: In this paper, groundwater recharge in Otukpo basin is estimated using a modified daily soil moisture balance based on a single soil water store for a climate classified as tropical with distinct dry and wet seasons in the Middle Belt part of Nigeria. Soil properties like field capacity, permanent wilting point, readily available water, actual and potential evapotranspiration, soil moisture deficit were all estimated and deployed in the model which algorithm was developed using Python programming language, hence the name modified soil moisture balance model. Runoff is estimated using runoff matrix and runoff coefficients which depend on rainfall intensity and soil moisture deficits. A new component, near surface storage, is used to represent continuing evapotranspiration on days following heavy rainfall even though the soil moisture deficit is high. Groundwater recharge is estimated for cassava and yam which are commonly cultivated vegetable crops in the study area. Meteorological data for the periods of 2008 to 2018 were used in the model analysis. The model recorded annual groundwater recharge which varied from 38.119 mm in 2017 water year (just 3.6% of annual rainfall for the year) to 333.35 mm in 2009 water year which is 20.01% of annual rainfall for the year). The highest annual rainfall depth was also observed in the year 2009 as 1665.4 mm, with the lowest annual rainfall depth, 1062.4 mm also observed in the year 2017. The annual runoff ranged from 322.04 mm in the year 2015, a 32.16 % of annual rainfall for the year to 935.56 mm in the year 2008 a 58.17 % of annual rainfall for the year. The lowest actual evapotranspiration AE was also observed in 2017 as against the highest in 2012. The AE ranged from 583.84 mm in 2017 to 721.39 mm in 2012. The model gave a simplified method of groundwater recharge estimation as well as runoff depth coupled with rainfall-runoff relationship.
URI: http://repository.futminna.edu.ng:8080/jspui/handle/123456789/7228
Appears in Collections:Civil Engineering

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